DE202007006933U1 - Flow check valve - Google Patents

Abstract

Flow check valve to open and closing a fluid connection between a first and a first second space, in particular the barrier fluid chamber of a barrier fluid acted on mechanical seal assembly and a room outside the barrier fluid chamber, with a housing (1), one provided in the housing Fluid passage passage (2), a first valve seat (11) at the fluid passage passage, and a closing member disposed axially movably in the fluid passage passage (6), in a first position in a sealing relationship is biased by the first valve seat by a biasing force and to a second position releasing the fluid passage passage is movable against the biasing force, characterized by a with the Closing element (6) engageable, the fluid in the first Room suspendable actuator (16), which is adapted to under the action of a change in temperature the fluid is an axial force on the closing element in the direction to exercise its second position around the closing element when exceeding a certain fluid temperature against the Vorspannkarft in the move second position, wherein the closing element in the first and second ...

Description

The The invention relates to a flow check valve for opening and Closing a fluid connection between a first and a second space, in particular the barrier fluid chamber of a barrier fluid acted on mechanical seal assembly and a room outside the barrier fluid chamber, according to the preamble of claim 1.

at double-acting mechanical seal assemblies is between a Pair of mechanical seals include a barrier fluid chamber, in a barrier fluid, usually one opposite the medium to be sealed inert liquid, be introduced can. The pressure of the barrier fluid may be at a suitably higher level be set as that of the medium to be sealed. The system creates an increased Safety against leakage escapes to the environment, and further may the barrier fluid has a cooling effect exercise on the mechanical seals. such as these Double acting mechanical seal assemblies are known; it can z. B. on Burgmann, Encyclopedia of the mechanical seal, Selbstverlag, 1988, p. 51, 224. There are barrier fluid systems with and without circulation of the barrier fluid between the barrier fluid chamber and external barrier fluid supply assemblies.

The Invention is particularly, but not exclusively, to Application directed at barrier fluid systems without circulation, at which a refill on barrier fluid in the barrier fluid chamber primarily for compensation of losses serves. It refers in particular to a monitoring the temperature of the barrier fluid in the barrier fluid chamber to exceed certain temperature limits timely temperature-reducing countermeasures initiate.

in the With regard to this objective can be between the barrier fluid chamber a sealing fluid acted on mechanical seal assembly and a space outside the barrier fluid chamber, a fluid flow check valve be provided with the features of claim 1. This valve can due to its special structural design a barrier fluid passage passage when exceeding one certain temperature of the barrier fluid to open, so that the overheated Blocking fluid can flow out of the chamber to the outside and appropriate measures can be taken z. B. by introduction exchange fluid from a foreign source in the chamber, so that the Temperature in the chamber returns to a value below the specified Temperature is returned and thus a cooling effect the mechanical seals is still guaranteed. When this is achieved is, closes the inventive Valve automatically opens the passageway and is in the barrier fluid chamber the normal operating state resumed.

A preferred embodiment of the invention is characterized in that the flow control valve can also exert a venting function on the equipment provided therewith. The means provided for this purpose are in the dependent claim 6 to which reference can be made. Finally, it is preferred that both the closing element and the abutment element form parts of a PEEK plastic material, which is particularly suitable because of its good mechanical and thermal properties for said components and has the advantage that an undesirable deposition of foreign particles on the moldings, z. B. metallic abrasion, etc., an effective resistance is opposed.

The Invention will be described below with reference to an embodiment and the drawing explained in more detail. It demonstrate:

1 in a perspective longitudinal sectional view of a flow check valve according to an embodiment of the invention,

2 in perspective view a closing element of the flow control valve according to the invention, and

3 in an enlarged perspective, partially sectional view of a detail of the flow check valve according to the invention.

Regarding 1 The flow control valve according to the invention comprises a substantially tubular housing 1 that of a bore 2 interspersed, which is a passage passage for a fluid from one axial end to the other axial end of the housing 1 provides. As shown, the hole can 2 be graduated in diameter several times. At one in 1 right-sided area can be the case 1 to a tubular approach 3 graded with reduced outside diameter, on which a screw thread 4 is provided, by means of which the valve in a wall, for. B. a barrier fluid chamber (not shown), can be mounted.

At an intermediate area 5 of the housing 1 has the hole 2 an enlarged diameter for receiving a piston-shaped closing element 6 , a biasing spring 7 and an abutment element 8th , The closing element 6 is in 2 shown with further details and includes in particular at 9 indicated sealing area and one of the biasing spring 7 facing piston guide area 10 ,

Although the sealing area 9 could be formed in another way, it includes in the present embodiment, an O-ring sealing element, which in an annular groove of the closing element 6 rests and with an annular valve seat surface 11 can interact, which at one to the sealing area 9 of the closing element 6 aligned area of the housing bore 2 is provided. In the piston guide range 10 can be another sealing element 12 , preferably in the form of an O-ring, which is provided with an intermediate, cylindrical guide region 14 the housing bore 2 can interact to the closing element 6 on the other hand to seal and at the same time to move axially.

As in 2 is shown is the closing element 6 from a pressure relief hole 15 interspersed, extending from an axial end of the closing element 6 extends to its opposite axial end, so that a fluid present at one end can flow to the other end of the closing element and thus the position of the closing element 6 is not affected by the pressure of the fluid. Preferably, the pressure relief hole 15 designed as a throttle bore to limit the flow of fluid to a suitably low Duchsatzmenge. For a suitable throttle effect, the pressure relief hole 15 z. B. have a diameter of 1 to 2 mm.

The biasing spring 7 , which is preferably a conical spiral spring, is with its one axial end on the closing element 6 and with the other axial end on the abutment member 8th supported. The biasing spring 7 exercises on the closing element 6 and the abutment element 8th a same biasing force. The preload force on the closing element 6 causes its sealing area 9 with the valve seat surface 11 the housing bore 2 is held in a sealing engagement and thereby a passage of fluid along the outer periphery of the closing element 6 is prevented.

The closing element 6 can be counteracted by the application of an axial force to the biasing force of the biasing spring 7 be moved to a position in which the sealing engagement is canceled. To exercise the triggering axial force is in the tubular approach area 3 of the housing 1 an actuator 16 mounted, which is adapted to undergo an axial change in length under the action of a change in temperature. In particular, it may be in the Actuate transmission element to a so-called. Elastic working element, in which an encapsulated expansion material undergoes an expansion at a temperature increase, which manifests itself in a movement of a working piston, which engages with the facing end surface of the closing element 6 stands. Such expansion work elements are known in the art and need not be described in detail at this point. Suitable Dehnstoffarbeitselemente are z. B. from the company Behr Thermot-tronik GmbH, Enzstrasse 25 , D-70806 Kornwestheim and described in the company's catalog. The actuator 16 is exposed in operation to the fluid in the barrier fluid chamber of a mechanical seal assembly.

The abutment element 8th in the present embodiment is piston-shaped and includes one of the biasing spring 7 facing cylindrical area 17 with enlarged diameter and one of the preload spring 7 facing away from the cylindrical area 18 of reduced diameter, with a sealing area between the two areas 19 , is preferably provided in the form of an O-ring sealing element. The sealing area 19 may be in sealing engagement with another annular valve seat surface 20 on the inner circumference of the housing bore 2 occur to under the action of the biasing spring 7 a sealing relationship between the abutment member 8th and the housing bore 2 to accomplish.

The abutment element 8th is in the housing bore 2 arranged axially movable and can therefore under an axial force exerted thereon opposite to the biasing force of the biasing spring 7 be brought into an axial position in which the sealing relationship between the abutment element 8th and the housing bore 2 is lifted and a fluid flow along the outer circumference of the abutment member 8th is possible. In particular, then a limited fluid exchange between the axial ends of the valve via the pressure relief hole 15 in the closing element 6 and the area between the closing element 6 and the abutment element 8th and take place along this.

The one movement of the abutment element 8th causing axial force is applied by a pin-shaped support element 21 that the housing bore 2 diametrically interspersed and on which the abutment element 8th is present, at one of its axial ends in an elongated, preferably keyhole-like guide groove (not shown) in the peripheral wall of the housing bore 2 engages and at the other end at one on the adjacent end portion of the housing 1 rotatably mounted coupling ring 23 is held. The guide groove is oriented so that the support element 21 depending on the position of its one end in the guide groove a different axial position with respect to the abutment element 8th occupies. Depending on the rotational position of the coupling ring 23 by hand or by means of a tool is therefore the support element 21 fixed in a first position, in which on the abutment element 8th no axial force is exerted, or in one second position at which the abutment element 8th from the sealing relationship with the housing bore 2 moved out.

It should be noted that at the the Überwurfring 23 facing the end of the housing 1 a mounting ring 24 attached z. B. may be screwed, which may have a hexagonal outer peripheral configuration, so that a rotating tool can be applied to mount the valve in a threaded bore in the wall of a barrier fluid chamber.

Preferably, both make the closing element 6 as well as the abutment element 8th Molded parts made of a suitable plastic material, preferably polyetheretherketone (PEEK) plastic.

The, as mentioned above formed flow check valve works as follows:
When the flow check valve in the in 1 shown position in which between the closing element 6 and the housing bore 2 a sealing relationship exists with its actuator 16 is exposed to the fluid in a barrier fluid chamber of a mechanical seal assembly, the said sealing relationship is maintained until the temperature of the fluid exceeds a certain upper limit and thereby the actuator 16 undergoes such axial expansion that the closing element 6 against the force of the biasing spring 7 is moved axially in the release position. As a result, along the sealing area 9 of the closing element 6 Fluid flow and into an annular channel 25 in the case 1 while passing through the downstream sealing area 10 at a continued flow along the closing element 6 is hindered. From the Rinkanal 25 the fluid passes through a connection hole 26 between the ring channel 25 and the housing bore 2 outward. At least a portion of the superheated fluid may therefore be removed from the barrier fluid chamber and replaced with a fluid of suitable temperature.

In this process, the abutment element 8th in the sealing relationship with the housing bore 2 , so that a fluid exchange along the outer circumference of the abutment element 8th can not take place.

In order to enable such a fluid exchange, the abutment element 8th by a rotation of the coupling ring 13 be brought into an axial position, in which the sealing engagement between the sealing area 19 and the valve seat surface 20 is lifted and thereby the Sperrfluidkammer via the pressure relief hole 15 in the closing element 6 and the outer periphery of the abutment member 8th with the housing bore 2 is brought into a fluid-exchanging connection. This may be used to introduce a replacement fluid into the barrier fluid chamber when the closure element 6 is in the closed position. In particular, a ventilation function for venting the barrier fluid chamber can thus be exercised.

If desired, the flow control valve according to the invention can be equipped without such a vent function, in which case the coupling ring 23 and the means for axial movement of the abutment member 8th omitted who can. It is further understood that the sealing effect of the areas 9 . 10 . 19 other than by O-ring sealing elements, for. B. can be obtained by a conical design of the cooperating sealing surfaces. Also, the invention is not limited to the mentioned means for axial movement of the abutment element 8th limited. Finally, the application of the flow control valve according to the invention is not limited to mechanical seal assemblies, but it can thus other equipment in which a similar temperature monitoring function is desired to be equipped.

Claims (9)

Flow control valve for opening and closing a fluid connection between a first and a second space, in particular the barrier fluid chamber of a sealing fluid acted upon mechanical seal assembly and a space outside the barrier fluid chamber, with a housing ( 1 ), a housing provided in the fluid passage passage ( 2 ), a first valve seat ( 11 ) at the fluid passage passage, and a closing member disposed axially movably in the fluid passage passage (Fig. 6 ) which is biased in a first position into a sealing relationship with the first valve seat by a biasing force and is movable to a second position with release of the fluid passage passage against the biasing force, characterized by a with the closing element ( 6 ) engageable, the fluid in the first space exposable actuator ( 16 ), which is adapted to exert an axial force on the closing element in the direction of its second position under the action of a change in temperature of the fluid to move the closing element when a certain fluid temperature against the biasing force to the second position, wherein the closing element in the first and second position is fluid pressure relieved. Valve according to claim 1, characterized in that the closing element as a piston element ( 6 ) with a pressure relief hole ( 15 ) is formed extending from one axial end to the other axial end of the closing element extends. Valve according to claim 1 or 2, characterized in that the closing element ( 6 ) is a molded part of a PEEK plastic material. Valve according to claim 1, 2 or 3, characterized in that a spring biasing device ( 7 ) for biasing the closing element ( 6 ), wherein the spring biasing device with an axial end on the closing element and with its other axial end on a disposed in the fluid passage passage abutment element ( 8th ) is axially supported. Valve according to claim 5, characterized in that the abutment element ( 8th ) is a molded part of a PEEK plastic material. Valve according to claim 4 or 5, characterized in that it has a venting function by the abutment element ( 8th ) axially movable in the fluid passageway ( 2 ) and in the fluid passageway ( 2 ) a second valve seat ( 20 ) in which the abutment member is biased into sealing engagement in a first position to prevent fluid flow along the abutment member while the abutment member is movable to a second position against the biasing force to provide fluid flow across the pressure relief bore (10). 15 ) and to allow a region between the closing element and the abutment element from the first to the second space. Valve according to claim 6, characterized in that the housing ( 2 ) is formed in two parts, wherein one part is adjustable relative to the other, and on the housing parts cooperating means ( 21 ) are provided to exert an axial force on the abutment member in a direction opposite to the biasing force when adjusted in a direction of one of the housing parts relative to the other. Valve according to one of the preceding claims, characterized in that the closing element ( 6 ) and the abutment element ( 8th ) each carrier of O-ring sealing elements ( 9 . 19 ) which are in sealing engagement with the first and second valve seats ( 11 . 20 ) the fluid passage passage ( 2 ) are brought. Valve according to claim 6 or 7, characterized in that the pressure relief bore ( 15 ) is designed as a throttle bore.